Integrated personal digital assistant device

What is claimed is: 1. A method performed by one or more processors of a mobile computing device, the method comprising: executing a first application using the one or more processors; receiving, during execution of the first application, a first user selection of a shift key; transitioning a state of the shift key from an unlocked non-shift state to a shift state based on the first user selection; changing the currently executing application from the first application to a second application that is different than the first application; clearing the state of the shift key in response to changing the currently executing application; transitioning the state of the shift key from the shift state to a shift lock state during execution of the first application in response to receiving a second user selection of the shift key; and transitioning the state of the shift key from the shift lock state to the unlocked non-shift state during execution of the first application in response to receiving a third user selection of the shift key. 2. The method of claim 1 , wherein the clearing comprises: transitioning the state of the shift key from the shift state to the unlocked non-shift state. 3. The method of claim 2 , further comprising: avoiding unintended shift key input during execution of the second application based on transitioning the state of the shift key from the shift state to the unlocked non-shift state. 4. A method performed by one or more processors of a mobile computing device, the method comprising: executing a first application using the one or more processors; receiving, during execution of the first application, a user selection of a shift key; transitioning a state of the shift key from an unlocked non-shift state to a shift state based on the user selection; changing the currently executing application from the first application to a second application that is different than the first application; clearing the state of the shift key in response to changing the currently executing application; receiving a user selection of a key corresponding to a character; presenting, on a touch-sensitive display of the mobile computing device, a non-capitalized version of the character based on the shift key being in the unlocked non-shift state; and presenting, on the touch-sensitive display of the mobile computing device, a capitalized version of the character based on the shift key being in the shift state. 5. The method of claim 4 , further comprising: detecting the user pressing the shift key for a first period of time; transitioning the state of the shift key to a shift lock state based on the user pressing the shift key for the first period of time; and canceling the shift lock state of the shift key if additional user input is not detected within a second period of time. 6. The method of claim 4 , wherein the clearing comprises: transitioning the state of the shift key from the shift state to the unlocked non-shift state. 7. A method performed by one or more processors of a mobile computing device, the method comprising: executing a first application using the one or more processors; receiving, during execution of the first application, a user selection of a shift key; transitioning a state of the shift key from an unlocked non-shift state to a shift state based on the user selection; changing the currently executing application from the first application to a second application that is different than the first application; clearing the state of the shift key in response to changing the currently executing application; receiving a user selection of a key corresponding to a character while the shift key is in the shift state; presenting, on a touch-sensitive display of the mobile computing device, a capitalized version of the character based on the shift key being in the shift state; and canceling the shift state of the shift key in response to presenting the capitalized version of the character. 8. The method of claim 7 , wherein the clearing comprises: transitioning the state of the shift key from the shift state to the unlocked non-shift state. 9. A method performed by one or more processors of a mobile computing device, the method comprising: executing a first application using the one or more processors; receiving, during execution of the first application, a first user selection of a shift key; transitioning a state of the shift key from an unlocked non-shift state to a shift state based on the first user selection; changing the currently executing application from the first application to a second application that is different than the first application; clearing the state of the shift key in response to changing the currently executing application; receiving a second user selection of the shift key during execution of the first application; and transitioning the state of the shift key from the shift state to a shift lock state based on the second user selection. 10. The method of claim 9 , further comprising: presenting, on a touch-sensitive display of the mobile computing device, capitalized versions of any number of characters subsequently selected by the user based on the shift key being in the shift lock state. 11. The method of claim 9 , further comprising: receiving a third user selection of the shift key during execution of the first application; and canceling the shift lock state of the shift key based on the third user selection. 12. The method of claim 9 , wherein the clearing comprises: transitioning the state of the shift key from the shift state to the unlocked non-shift state. 13. A mobile computing device, comprising: a touch-sensitive display; one or more processors; and a memory resource storing instructions that, when executed by the one or more processors, cause the mobile computing device to: execute a first application using the one or more processors; receive, during execution of the first application, a first user selection of a shift key; transition a state of the shift key from an unlocked non-shift state to a shift state based on the first user selection; change the currently executing application from the first application to a second application that is different than the first application; clear the state of the shift key in response to changing the currently executing application; transition the state of the shift key from the shift state to a shift lock state during execution of the first application in response to receiving a second user selection of the shift key; and transition the state of the shift key from the shift lock state to the unlocked non-shift state during execution of the first application in response to receiving a third user selection of the shift key. 14. The mobile computing device of claim 13 , wherein execution of the instructions to clear the state of the shift key causes the mobile computing device to: transition the state of the shift key from the shift state to the unlocked non-shift state. 15. The mobile computing device of claim 14 , wherein execution of the instructions causes the mobile computing device to: avoid unintended shift key input during execution of the second application based on transitioning the state of the shift key from the shift state to the unlocked non-shift state. 16. A mobile computing device, comprising: a touch-sensitive display; one or more processors; and a memory resource storing instructions that, when executed by the one or more processors, cause the mobile computing device to: execute a first application us